CN1272854A - Acrylic modified waterborne sulfonated alkyd dispersions - Google Patents

Abstract

A water-based latex of an acrylic-modified waterborne alkyd dispersion in water is described. The acrylic-modified waterborne alkyd is a hybrid resin prepared by the polymerization of at least one ethylenically unsaturated monomer in the presence of a waterborne alkyd having at least one pendant sulfonate functionality. The ethylenically unsaturated monomer may also be a latent oxidatively functional (LOF) acrylic monomer. Preparation of the latexes may be achieved by emulsion polymerization of at least one ethylenically unsaturated monomer in the presence of a waterborne alkyd having at least one pendant sulfonate functionality. Preparation of hybrid latexes which contain latent oxidative functional (LOF) acrylic monomers may also be achieved by emulsion polymerization of at least one LOF acrylic monomer in the presence of a waterborne alkyd having at least one pendant sulfonate functionality whereby the latent oxidative functionality of the acrylic polymer survives polymerization. Such acrylic-modified waterborne alkyds are useful in a variety of coating compositions.

Description

Acrylic modified waterborne sulfonated alkyd dispersions

Background of invention

Invention field

The present invention relates to the water-based latex of a kind of acrylic modified waterborne alkyd dispersions in water.Such acrylic modified waterborne alkyd can be used in the diversified coating composition.

Description of Related Art

In recent years, coatings industry has been made a lot of effort and has been developed low or zero VOC content formulation for coating material.The rules of the VOC content of restriction industrial coating help research and development, to explore the related new technology of solvent discharge of industrial solvent base coating operations such as reducing automobile, electrical equipment, common metal, furniture.A kind of technology relates to uses water to replace organic solvent, and useful especially owing to obvious reason such as availability, cost and environmental acceptability.Yet though brought the health and safety benefit from the organic solvent based composition and use thereof in packaging to the transformation of aqueous composition, water base paint compositions must meet or exceed from the standard of performance of solvent-based compositions expection.Meet or exceed the needs of this type of standard of performance, show the feature and the performance of the waterborne polymeric dispersion liquid that will pay attention to being used for water base paint compositions.

The waterborne polymeric dispersion liquid is each preparation from following three kinds of primary industry film-forming polymer types always: polyester, acrylic acid or the like, and alcohol acids.In these three kinds of polymer types, aqueous alkide resin demonstrates than waterborne polyester or significantly high package stability and the coating stability of acrylic resin.In addition, because its lower molecular weight, Synolac also demonstrates film forming ability especially, thereby makes final coated film that very high gloss be arranged.As with traditional solvent base alkyd, resistance properties is to represent by the autoxidation of this alcohol sorrel is crosslinked.Yet though alkyd has demonstrated and continued to demonstrate hope, their " drying " and/or set time are quite slow, and be all the more so especially at normal temperatures.In the trial at this type of concern, water alcohol acid has been subjected to a lot of attention with the mixture of relative high-molecular-weight propylene acid polymer.

United States Patent (USP) 4,413,073 has described a kind of a kind of pre-generation polymkeric substance and at least a aqueous-based dispersions preparation method who generates the particulate (" heteropolymer particulate ") of the film-forming polymer of polymkeric substance on the spot of comprising.This dispersion liquid is to prepare in the presence of at least 8 amphipathic stable compound at its HLB, and its oleophilic moiety to comprise at least one ethylene linkage unsaturated.This aqueous dispersions can be used as a kind of film forming component of coating composition.

United States Patent (USP) 4,451,596 have described water-dilutable alkyd and the acrylate resin that is used for water-dilutable lacquer system.A kind of preparation method of the water-dilutable resin formulation based on alkyd and acrylic resin has also been described.

But european patent application 0 555 903 has been described a kind of water dispersing and mixing polymkeric substance of unsaturated fatty acids acid functional polyesters.In addition, the aqueous dispersions of a kind of like this mixed polymer that is used for highly filled water base paint compositions and filming with this type of coating composition generation have also been described.

PCT application WO 95/02019 has described a kind of emulsion of water dispersive air-drying resin and the preparation method of this type of emulsion.The mixed emulsion of a kind of Synolac and a kind of acrylic resin has also been described.

Alkyd in the past/vinylformic acid mixing latex is to prepare with the alkyd that does not contain metal sulfonate salt group.And then, the acrylate copolymer or the right and wrong of mixtures are reactive before these, otherwise have the similar group that can in Synolac, exist with aminoplastics reaction such as melamine-formaldehyde resin and the reactive group (as oh group) that only at high temperature reacts.

Brief summary of the invention

One aspect of the present invention is a kind of water-based latex of acrylic modified waterborne alkyd resin.This acrylic modified waterborne alkyd resin be from least a ethylene linkage unsaturated monomer a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality arranged be a kind of sulfonation water alcohol acid in the presence of a kind of hybrid resin of obtaining of polymerization.It is a kind of by making a kind of hybrid resin polymerization that obtains from the polymerization in the presence of a kind of sulfonation water alcohol acid of at least a ethylene linkage unsaturated monomer prepare the method for this type of water-based latex that the present invention also provides.The present invention further provides the coating composition that contains water-based latex of the present invention.

Detailed description of the invention

The invention provides a kind of water-based latex of acrylic modified waterborne alkyd resin.In a kind of specific embodiments, this latex provides from least a ethylene linkage unsaturated monomer at a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality is arranged, a kind of stable emulsion of a kind of hybrid resin that polymerization obtains under promptly a kind of existence of sulfonation water alcohol acid.In another kind of specific embodiments, this latex provides a kind of stable emulsion that Acrylic Acid Monomer that potential oxidisability official can (LOF) a kind of hybrid resin that polymerization obtains in the presence of a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality arranged is arranged from least a, the LOF group that makes this Acrylic Acid Monomer keep q.s be used for after film forming or during film forming and other LOF group or pure acid functionality further react.Latex of the present invention is stable when storing under the temperature of room temperature or a little higher than room temperature.Crosslinked when latex of the present invention can influence film forming.Such latex film or film thermofixation at normal temperatures or photochemical solidification.

In water-based latex of the present invention, the acrylic modified waterborne alkyd resin generally exists with the particulate form that is scattered in the water.These particulates generally are spheric.These particulates can be structural or unstructuredness.Structural particulate includes but not limited to core/shell particulate and gradient particulate.Core/shell polymeric particulate also can be prepared into multi-petal shape formula, Pericarppium arachidis hypogaeae form, acorn nut form or immature fruit of Juteleaf Raspberry form.Be more preferably about 20～about 80% (weight) that core segment accounts for described particulate gross weight in such particulate, shell partly accounts for about 80～about 20% (weight) of this particulate gross weight.

The mean particle size range of this mixing latex can be about 25～about 500nm.Size range is about 50～about 300nm preferably, is more preferably about 100～250nm.This epoxy glue lactoconium generally is a spheric.

According to the present invention, the second-order transition temperature of the acrylate moiety of this hybrid resin (Tg) can be up to about 100 ℃.Comparatively in the better embodiment of ideal the present invention, second-order transition temperature better can be preferably in about 0～60 ℃ about below 70 ℃ to latex film forming at normal temperatures.

Acrylic modified waterborne alkyd resin of the present invention is to prepare by the polymerization in the presence of a kind of sulfonation water alcohol acid of at least a ethylene linkage unsaturated monomer.If at least a in these ethylene linkage unsaturated monomers is a kind of potential oxidisability official's energy (LOF) Acrylic Acid Monomer as described below, acrylic modified waterborne alkyd resin then of the present invention will prepare in the presence of a kind of like this sulfonation water alcohol acid, make the potential oxidisability functionality of this Acrylic Acid Monomer be enough to make the polymerization process survival, thereby strengthen the crosslinked of this hybrid resin.Known any polymerization technique on can use technology.Better use emulsion polymerization technique, can prepare high-molecular weight polymer with low viscosity because letex polymerization makes.This polymerization can be used as a stage or the multistage charging is carried out.If use the multistage charging, then one or more stages can be contained the mixture of LOF Acrylic Acid Monomer or LOF Acrylic Acid Monomer.Can use different LOF monomers in different steps.Multipolymer can be used as the acrylate moiety of acid modified alcoholic, and can prepare by making other ethylene linkage unsaturated monomer and the copolymerization of LOF Acrylic Acid Monomer.Contain the preparation of emulsion polymer of the acrylic modified waterborne alkyd resin of potential oxidisability functionality, be coating composition under for example ambient cure of varied condition of cure, thermofixation and photochemical solidification crosslinked a kind of may terms of settlement.

The sulfonation aqueous alkide resin

A kind of sulfonation aqueous alkide resin that uses in the water-based latex of the present invention, can be technical known, any aqueous alkide resin of at least one pendant sulfonic acid salt functionality is arranged, but comprise that any water dissipation, water can disperse or the Synolac of water reducible (can enter in the water).The example of this type of Synolac is seen U.S. Patent No. 5,378,757 and No, 5,530,059, and both all classify this paper reference as.

In general, the sulfonation aqueous alkide resin can be by making a kind of unary fatty acid, fatty acid ester or naturally occurring partly-hydrolysed oil, a kind of glycol or how pure, a kind of polycarboxylic acid and a kind of sulfomonomer or the sulfomonomer adducts that contains at least one sulfomonomer group react and prepare.

Unary fatty acid, fatty acid ester or naturally occurring partly-hydrolysed oil better are selected from formula (I), (II) and (III):

In the formula, the R group is a C ₈～C ₂₀Alkyl group.Better the R group is one of following groups:

The linolic acid residue

The linolenic acid residue

The oleic acid residue

Unary fatty acid, fatty acid ester or naturally occurring partly-hydrolysed oil better are by a kind of lipid acid or oil and a kind of many alcohol reactions are prepared.The example that is suitable for oil includes but not limited to Trisun Oil R 80, Tower rape oil, synourin oil, Oleum Cocois, Semen Maydis oil, oleum gossypii seminis, fish oil, Toenol 1140, oiticica oil, soya-bean oil and tung oil, Tallow, beef, Viscotrol C, lard, palm-kernel oil, peanut oil, perilla oil, Thistle oil, (animal) fatty oil, walnut wet goods.Lipid acid includes but not limited to butter (fat) acid, soy(a)-bean oil fatty acid, tetradecanoic acid, Semen Lini acid, Ba Dousuan, a kind of alkanecarboxylic acid that side chain arranged, coconut oil, tall oil fatty acid, sylvic acid, neodecanoic acid, PIVALIC ACID CRUDE (25), Unimac 5680,12-oxystearic acid, cotton seed acid etc. separately or as the suitable examples of oil composition part.

Glycol or many alcohol better are selected from aliphatic diol, alicyclic diol and arylalkyl glycol.The suitable examples of glycol includes but not limited to ethylene glycol, propylene glycol, glycol ether, triglycol, Tetraglycol 99, five glycol, hexaethylene glycol, seven glycol, eight glycol, nine glycol, ten glycol, 1, ammediol, 2,4-dimethyl-2-ethyl own-1, the 3-glycol, 2,2-dimethyl-1, the 2-propylene glycol, 2-ethyl-2-butyl-1, ammediol, 2-ethyl-2-isobutyl--1, ammediol, 1, the 3-butyleneglycol, 1, the 4-butyleneglycol, 1, the 5-pentanediol, 1, the 6-hexylene glycol, 2,2,4-trimethylammonium-1, the 6-hexylene glycol, the sulphur di-alcohol, 1, the 2-cyclohexanedimethanol, 1, the 3-cyclohexanedimethanol, 1, the 4-cyclohexanedimethanol, 2,2,4-trimethylammonium-1,3-pentanediol, 2,2,4-trimethylammonium-1,3-tetramethylene glycol, the p-Xylol glycol, hydroxyl pivalyl hydroxy new pentane acid ester, decamethylene-glycol, the hydrogenation dihydroxyphenyl propane, three (methylol) propane, three (methylol) ethane, tetramethylolmethane, tetrahydroxybutane, threitol, dipentaerythritol, Sorbitol Powder, glycerine, 1,2, the 4-benzenetricarboxylic anhydride, pyromellitic acid dianhydride, two (methylol) propionic acid etc.

Polycarboxylic acid better is selected from a group of following composition: m-phthalic acid, terephthalic acid, phthalic acid (acid anhydride), hexanodioic acid, tetrachlorophthalic tetrachlorophthalic anhydrid, Tetra Hydro Phthalic Anhydride, dodecanedioic acid, sebacic acid, nonane diacid, 1,4-cyclohexane dicarboxylic acid, 1,3-cyclohexane dicarboxylic acid, maleic anhydride, fumaric acid, succsinic acid (acid anhydride), 2,6-naphthalene dicarboxylic acids, pentanedioic acid and ester thereof.

Available sulfonation aqueous alkide resin among the present invention, its K value (is defined as the total mole number (M of every kind of reactant _r) divided by acid functionality's total yield number. (E _a)) be preferably about 1.0～about 1.5, more preferably about 1.0～about 1.25, and its R value (is defined as the total yield number (E of hydroxy functionality _OH) divided by acid functionality's total yield number (E _a)) be preferably about 1.0～about 2.0, more preferably about 1.0～about 1.5.

The K value is that a kind of of molecular resin amount measures, and the latter is along with the K value increases to 1.00 reductions.High resin is good more more owing to molecular weight, thus the K value approach more 1.00 good more.The R value is proportional to the excessive equivalents of the synthetic middle hydroxy functionality that uses of resin.Excessive person is better for hydroxy functionality, yet thisly excessively should not reach height like this, becomes to water sensitive to cause resulting coating.

The sulfomonomer of sulfomonomer adducts be two functional otherwise be one functional, contain one and be attached on the virtue nuclear-SO ₃The monomer of M group, wherein M is hydrogen or metal ion, for example Na ⁺, Li ⁺, K ⁺, Ca ²⁺, Cu ²⁺, Fe ²⁺, or Fe ³⁺Sulfomonomer as two functional monomer's compositions can be a kind of containing-SO ₃The dicarboxylic acid (or derivatives thereof) of M group (definition of M is the same).-SO ₃The suitable examples of the virtue nuclear that the M group can adhere to includes but not limited to benzene, naphthalene, anthracene, biphenyl, oxydiphenyl, sulphonyl hexichol and methylene radical hexichol.

When this two functional monomer is sulfoisophthalic acid, sulfo group terephthalic acid, sulfosalicylic phthalate, 4-sulfo group naphthalene-2, during the sodium salt of 7-dicarboxylic acid or derivatives thereof, give especially good results.Be more preferably, this two functional monomer is a for example 5-sodiosulfoisophthalic acid dimethyl ester of 5-sodiosulfoisophthalic acid or derivatives thereof.Other preferably two functional monomers be 5-sulfoisophthalic acid lithium, 5-sulfoisophthalic acid dimethyl ester lithium, 5-sulfoisophthalic acid potassium and 5-sulfoisophthalic acid dimethyl ester potassium.

Other contains and is attached on the virtue nuclear-SO ₃Effective two functional monomers of M group comprise the aromatic sulphonic acid of formula (IV) or its metal-salt of ester separately: In the formula, X is the trivalent aromatic hydrocarbyl, and Y is the divalence aromatic hydrocarbyl, and R ' is the alkyl group of hydrogen or 1～4 carbon atom, and M ' is hydrogen, Na ⁺, Li ⁺, or K ⁺The better monomeric example of formula (IV) includes but not limited to 4-sodium sulfo group phenyl-3,5-diformazan ester group benzene sulfonate, 4-lithium sulfo group phenyl-3,5-diformazan ester group benzene sulfonate and 6-sodium sulfo group-2-naphthyl-3,5-diformazan ester group benzene sulfonate.

Other contains and is attached on the virtue nuclear-SO again ₃Effective two functional monomers of M group comprise the diphenylsulfone ether dicarboxylic acid of formula V or the metal-salt of its ester:

In the formula, " be the alkyl group or the phenyl of hydrogen, 1～8 carbon atom, M " is hydrogen, K to R ⁺, Na ⁺, or Li ⁺Better monomeric example includes but not limited to 5-(4-(sodium sulfo group) phenoxy group) dimethyl isophthalate, 5-(4-(sodium sulfo group) phenoxy group) dimethyl terephthalate (DMT) and 5-(4-(sodium sulfo group) phenoxy group) m-phthalic acid.These type of monomeric other examples are disclosed in the U.S. Patent No. 3,734,874 of classifying this paper reference as.

But the type and the quantity change of the metal sulfonate of selecting for water dispersible are to obtain the useful ion Synolac that contains.With the carboxylic acid total content is benchmark, low reach 2% (mole) and just can give the water miscibility of significance degree, yet be preferably at least 3% (mole).Water-soluble polyester can be with reaching the preparation of 20% (mole) metal sulfonate.Yet to bring out type intermediate quantity be that the practical upper limit of benchmark is 9%, better is 6% to offset the needed side chain of water sensitivity effect.Best metal sulfonate comprises 5-sodiosulfoisophthalic acid, 5-sodiosulfoisophthalic acid dimethyl ester, 5-sulfoisophthalic acid lithium, 5-sulfoisophthalic acid dimethyl ester lithium, 5-sulfoisophthalic acid potassium, 5-sulfoisophthalic acid dimethyl ester potassium, 3-sodium sulfosalicylic acid etc.

Randomly, can and produce a kind of many alcohol (as glycol) sulfomonomer sulfomonomer adducts, that contain at least one sulfonate groups with a kind of many alcohol reactions, also can be a kind of can with a kind of many alcohol one sense sulfomonomer reaction, that contain at least one sulfonate groups that contains at least three oh groups.This sense sulfomonomer better is selected from following one group of sulfomonomer:

In the formula, X ' is CH ₂, SO ₂Or O, M is a kind of basic metal or alkaline-earth metal.

When making a kind of two sense sulfomonomer and a kind of many alcohol reactions prepare how pure sulfomonomer adducts, these many alcohol better are a kind of glycol.The suitable examples of glycols comprises the above those, be more preferably following glycol, ethylene glycol, glycol ether, 2,2,4-trimethylammonium-1,3-pentanediol, 1,4-cyclohexanedimethanol, 1,3-cyclohexanedimethanol, hydroxyl pivalyl hydroxy new pentane acid ester, dipropylene glycol, 1,6-hexylene glycol, decamethylene-glycol, 1,3-butyleneglycol, hydrogenation dihydroxyphenyl propane, 1,4-butyleneglycol and neopentyl glycol.

Remove how pure quantity according to better step and lipid acid, fatty acid ester or naturally occurring partly-hydrolysed oil reaction, and except that being used for from a sense sulfomonomer prepares many alcohol of sulfomonomer adducts, can also use many alcohol of additional quantity or other branching agent for example polycarboxylic acid increase the molecular weight and the branching of aqueous alkide resin.These branching agents better are selected from three (methylol) ethane, tetramethylolmethane, tetrahydroxybutane, threitol, dipentaerythritol, Sorbitol Powder, glycerine, 1,2,4-benzenetricarboxylic anhydride, pyromellitic acid dianhydride, two (methylol) propionic acid and three (methylol) propane.

In order to make this Synolac can be used as the reactive coalescents (by the oxidisability coupling) in epoxy glue Ruzhong and to enter in the cross-linked polymer film, be preferably this alkyd have certain limited oily length-length, in or short.This limited oily length or oil-contg are benchmark with the gross weight of this Synolac, are generally about 20% (weight)～about 90% (weight) in this alcohol acid composition.Gross weight with Synolac is a benchmark, and the oily length of " length " oleyl alcohol acid or oil-contg are about 60～90% (weight).Gross weight with Synolac is a benchmark, " in " oil-contg of oleyl alcohol acid is about 40～60% (weight).Gross weight with Synolac is a benchmark, and the oily length of " weak point " oleyl alcohol acid or oil-contg are about 20～40% (weight).

The ethylene linkage unsaturated monomer

The acrylate moiety of acrylic modified waterborne alkyd resin can be by the radical polymerization incompatible preparation of at least a ethylene linkage unsaturated monomer in the presence of aforesaid sulfonation water alcohol acid.The example of the ethylene linkage unsaturated monomer that is suitable for includes but not limited to styrene monomer, for example vinylbenzene, alpha-methyl styrene, vinyl naphthalene, Vinyl toluene, 1-chloro-4-methyl-benzene etc.; The unsaturated chemical seed of ethylene linkage, for example methyl acrylate, vinylformic acid, methacrylic acid, methyl methacrylate, ethyl propenoate, Jia Jibingxisuanyizhi, butyl acrylate, butyl methacrylate, isobutyl acrylate, Propenoic acid, 2-methyl, isobutyl ester, EHA, ethylhexyl methacrylate, Octyl acrylate, Octyl methacrylate, glycidyl methacrylate, methacrylic acid carbodiimide ester, Ba Dousuan alkane ester, vinyl-acetic ester, n-butyl maleate, dioctyl maleate etc.; Nitrogen containing monomer, comprise t-butylaminoethyl methacrylate, dimethylaminoethyl methacrylate, diethyl aminoethyl methacrylate, N, N-dimethylaminopropyl Methacrylamide, methacrylic acid 2-tertiary butyl amino ethyl ester, vinylformic acid N, N-dimethylamino ethyl ester, N-(2-methacryloxyethyl) ethylidene-urea and methacryloyl amido ethyl ethylidene-urea.The ethylene linkage unsaturated monomer that other example of the ethylene linkage unsaturated monomer that is suitable for includes but not limited to have at least one potential oxidisability functionality (LOF).Be preferably, at least a in sulfonation water alcohol acid polymeric ethylene linkage unsaturated monomer have a potential oxidisability functionality (LOF).

The LOF group can be that any energy (i) makes this polymerization process survival and the fragment side chain that (ii) participates in or promote the oxidative crosslinking of acid modified alcoholic.Behind the LOF polymerizable acrylic monomer, acid modified alcoholic of the present invention has enough LOF groups increases or amplifies the degree of crosslinking of surveying usually in the acrylic modified waterborne alkyd resin that does not contain the LOF group.In other words, still have enough LOF groups to increase or strengthen the effectively crosslinked of this hybrid resin.

The existence of LOF group on this acid modified alcoholic, the crosslinked possibility that becomes when making film forming or after the film forming.Acid modified alcoholic of the present invention has been arranged, crosslinked just can be between the LOF of the Acrylic Acid Monomer group, taking place between the unsaturated functionality of the ethylene linkage of the LOF of Acrylic Acid Monomer group and alkyd or between the unsaturated functionality of the ethylene linkage of alkyd.The LOF group of oxidizing reaction can take place, and as a radical source that can produce the free radical flux, participates in or promotes oxidn sexual intercourse connection.Be preferably, this LOF group is that a kind of ethylene linkage is unsaturated, such as but not limited to allyl group and vinyl groups.The LOF group better also can be acetoacetyl segment or enamine segment.In the United States Patent (USP) 5,296,530,5,494,975 and 5,525,662 of classifying this paper reference as, narrated enamine preparation from the acetoacetyl group.

There is the example of the Acrylic Acid Monomer of potential oxidisability official's energy (LOF) group to include but not limited to allyl methacrylate(AMA), methacrylic vinyl acetate, methacrylic acid acetoacetyl 2-ethoxyethyl acetate, methacrylic acid hydroxyl butene esters, toxilic acid allyl ester or diallyl, poly-(allyl glycidyl ether) etc.

Water-based latex

Water-based latex of the present invention is by the polymerization in the presence of a kind of a kind of aqueous dispersions of the water alcohol acid that at least one pendant sulfonic acid salt functionality arranged of at least a ethylene linkage unsaturated monomer is prepared.Water-based latex of the present invention is stable when the pH (pH＞7) identical with the latex for preparing from traditional water alcohol acid.Yet, with traditional water alcohol acid to mix latex different, based on the present invention's mixing latex of sulfonation water alcohol acid in pH≤7 in addition low also be stable when reaching pH 4.0-4.5.In water-based latex of the present invention, acid modified alcoholic generally exists with particulate form in the water.As discussed above, if in the acrylate moiety of hybrid resin, comprise the monomer that contains the LOF group, then after polymerization process, still have enough LOF groups to strengthen from the oxidative crosslinking of the film of resultant water base alkyd latex generation.Because the LOF group has effectively crosslinked function of this alkyd of raising, thereby survival makes it that not only the coreactivity that reacts with other LOF group and/or water alcohol acid functionality is arranged when film forming or after the film forming after the polymerization of enough LOF groups, and can promote the similar oxidative crosslinking between the water alcohol acid functionality.A result as this type of coreactivity between LOF group and/or the pure acid functionality can improve for example solvent resistance of film properties.

As discussed above, ethylene linkage unsaturated monomer or the mixture that can be used as at least a ethylene linkage unsaturated monomer adds, or can be used as the mixture interpolation of at least a ethylene linkage unsaturated monomer and a kind of LOF acrylic comonomers.The interpolation of ethylene linkage unsaturated monomer is carried out with one-stage process or multistage (for example core-shell) method.Better, the ethylene linkage unsaturated monomer adds with one-stage process.Have in hope under the situation of LOF Acrylic Acid Monomer, LOF Acrylic Acid Monomer (one or more) with one-stage process add cause a kind of even acrylate copolymer (being simple terpolymer), the latter to contain when film forming or after the film forming can and other LOF group or pure acid functionality reaction or can promote q.s LOF group (for example allyl group, the vinyl) number of the reaction between each functionality on this alkyd.The LOF Acrylic Acid Monomer adds with multiple process can produce a kind of inhomogeneous acrylate copolymer.For example, in two-stage method, first section interpolation may produce a kind of core polymkeric substance, better is a kind of often with the polyfunctional monomer for example vinylformic acid or the styrene/acrylic polymkeric substance of three vinylformic acid three (methylol) propane ester precrosslink.Second section is added a kind of shell polymeric of generation, better is a kind of styrene/acrylic polymkeric substance that contains for example reactive allyl group of high-level LOF group and/or vinyl segment.The monomer that uses in one or more snippets polymerization technique has description in the United States Patent (USP) 5,539,073 of classifying this paper reference as more like this.The LOF group can be positioned at polymer ends, also can distribute along polymer backbone.

As discussed above, better, water-based latex of the present invention prepares under the letex polymerization condition.In general, during the letex polymerization of this LOF acrylic polymer compositions, it mainly is unsaturated segment of acrylic acid ethylene linkage rather than LOF group that polymeric takes place.If the LOF group participates in polymerization, then polymerizing condition should make enough LOF groups survive, in the hope of when the film forming or after the film forming with other LOF group and/or water alcohol acid functionality generation oxidative crosslinking, and/or strengthen oxidative crosslinking between the water alcohol acid functionality.The survival of LOF group such as allyl group or vinyl segment can realize by the reactive difference of handling the ethylene linkage unsaturated group during polymerization.For example, the unsaturated vinylformic acid segment of the ethylene linkage of the Acrylic Acid Monomer of allyl group or vinyl-functional, the reactivity during with the styrene monomer polymerization is greater than LOF allyl group or vinyl segment.As a result, the polymers obtained LOF group that contains.The description of the pulsating survival of allyl group can be consulted the United States Patent (USP) 5,539,073 of classifying this paper reference as when handling the allyl functional acrylic polymer compositions with the promotion letex polymerization.The vinyl-functional acrylic polymer compositions can be to handle with being applicable to the similar mode of allyl functional acrylic polymer compositions.

When the LOF of acrylate copolymer group was an acetoacetyl oxygen segment, polymeric was the unsaturated segment of ethylene linkage under the letex polymerization condition.This acetoacetyl oxygen segment is not influenced by polymerization process, thereby can survive.

The polymerization process that is used for preparing this mixing latex also may need initiator, reductive agent or catalyzer.The initiator that is suitable for comprises initiator commonly used, for example ammonium persulphate, volatile salt, hydrogen peroxide, t-butyl hydroperoxide, ammonium or alkali metal sulfates, dibenzoyl peroxide, lauroyl peroxide, di-t-butyl peroxide, 2,2 '-Diisopropyl azodicarboxylate, benzoyl peroxide etc.

The reductive agent that is suitable for is those persons that can improve the polymerization velocity, and for example comprise sodium bisulfite (sodium bisulfite), sodium bisulfite (sodium hydrosulfite), sodium sulfoxylate formaldehyde, xitix, saccharosonic acid, and composition thereof.

Thereby being those, the catalyzer that is suitable under polymeric reaction condition, can promote polymerization starter to decompose the compound that improves polymerization velocity.The catalyzer that is suitable for comprises transistion metal compound and siccative.The example of this type of catalyzer include but not limited to the inferior cobalt of ferrous sulfate heptahydrate, iron protochloride, copper sulfate, cupric chloride, cobaltous acetate, sulfuric acid, and composition thereof.

Randomly, in the suspension or emulsion polymerization prepared of the present invention's mixing latex, also can use conventional surfactant or combinations-of surfactants as co-stabilizer or cosurfactant, for example anionic or nonionic emulsifier.The example of tensio-active agent includes but not limited to any combination of alkyl-sulphate, alkylsulphonic acid or lipid acid, ethoxylated alkyl phenols or anionic or the nonionic surface active agent of basic metal or ammonium preferably.Better surfactant monomer is HITENOL HS-20 (is polyoxyethylene alkyl phenyl ether ammonium sulfate, can available from the DKS international corporation of Japan).A appropriate table surface-active agent inventory is arranged: the Emulsifier ﹠amp of McCutcheon in the following monograph; Detergents, North America version and international version, MC publishing company, Glenn Roc city, New Jersey, 1993.When the pure acid moieties of Synolac accounts for reaching 35% (weight), when being generally about 5～20% (weight), better using a kind of conventional surfactant or combinations-of surfactants of this latex total solids.

If the mixing latex that obtains is the typical case uses in alkydpaints siccative salt prepare and also the LOF segment be present in the acrylate moiety of alkyd, then except that other performance, also observe the remarkable improvement of latex gelling part and swelling ratio (being respectively LGF and LSR) and solvent resistance.Though the pure acid moieties that mixes latex is at stabilized latex and improve film forming this all plays a significant role aspect two, what can improve some physics and film properties machinery is the existence of LOF acrylate moiety in this alkyd.The performance of improving contains relevant those of the observed taller cross-linking density of the hybrid resin of non-LOF acrylate moiety with comparison typically.

In general, the pure acid moieties of this mixing latex accounts for about 5～60% (weight) of this latex total solids, better about 10～50% (weight), better about 20～40% (weight), and the acrylate moiety of this mixing latex accounts for about 30～90% (weight) of this latex total solids, better about 50～80% (weight), better about 60～80% (weight).This type of mixes latex can be further used for coating composition.

Coating composition of the present invention contains the latex of acrylic modified waterborne alkyd dispersions of the present invention, and can prepare with technical known technology, for example United States Patent (USP) the 4th, the 698,391, the 4th, 737, No. 551 and the 3rd, those that disclose in 345, No. 313, this paper reference all classified in full as in each piece of writing of these patents.The example of this type of coating composition comprises, for example, and building coating, maintenance finish, industrial coating, car paint, weaving coating, printing ink, tackiness agent and paper, wood and paint for plastics.Coating composition of the present invention contains significantly less solvent, is less than 25% (weight) to low 1% (weight) and even the zero VOC content of reaching.The water alcohol acid of this hybrid resin partly keeps the ideal performance of alkyd, and the acrylate moiety of this resin has improved the hardness and the weather resistance of alcohol mixture acid resin.When using the LOF Acrylic Acid Monomer, the LOF of this acrylic resin partly replenishes or has strengthened the crosslinked ability of normal temperature oxidation of this alcohol mixture acid resin.Coating composition of the present invention can produce have high gloss, piece solidifies and the coating of good acid-fast alkali-proof.

This coating composition can be applied on the base material and curing (for example, spray the wet coating of 3～4 mils on metal sheet, and heated 30 minutes in 150 ℃ of forced air stoves) with technical known technology.This base material can be any acceptable substrate, for example paper, polyester film for example polyethylene and polypropylene, metal for example aluminium and steel, glass, polyurethane elastomer, priming paint (japanning) base material etc. is arranged.Coating composition of the present invention can be in self-vulcanizing (ambient cure), at hot setting (thermofixation) or photochemical solidification.

Coating composition of the present invention can further contain paint additive.The example of this type of paint additive includes but not limited to one or more flow agents, rheological agent and flow control agent, for example type siloxane, fluorine carbon or cellulose family; Extender; Reactive coalescing aid is for example classified the U.S. Patent No. 5,349 of this paper reference, those described in 026 as; Softening agent; Matting agent; Pigment wetting and dispersion agent and tensio-active agent; Ultraviolet (UV) absorption agent; UV light stabilizing agent; Tinting pigment; Tinting material; Defoamer and antifoams; Anti-settling, antitrickle and thickening material; Anti; Anti-floating and anti-floating agent; Biocide, mycocide and mould inhibitor; Inhibiter; Thickening material; Or coalescing agent.The specific examples of examples of such additives can be consulted Raw MaterialsIndex, and (1500 Rhode Island Avenue, N.W.Washington D.C.20005) publish whole nation paint with coating association.The further example of examples of such additives and emulsion polymerisation process opinion can be consulted the U.S. Patent No. 5,371,148 of classifying this paper reference as.

The example of matting agent includes but not limited to that synthetic silica (can be available from W.R.Grace ﹠amp; The Davison Chemical Divison of Company, trade(brand)name SYLOID ^); Polypropylene (can be available from Hercules company, trade(brand)name HERCOFLAT ^); And synthetic silicate (can be available from J.M.Huber company, trade(brand)name ZEOLEX ^).

The example of dispersion agent and tensio-active agent includes but not limited to sulfo-succinic acid two (n-tridecane ester) sodium, sulfo-succinic acid two (2-ethylhexyl) sodium, sulfo-succinic acid dihexyl sodium, sulfo-succinic acid two cyclohexyl sodium, diamyl sodium sulfosuccinate, sulfo-succinic acid diisobutyl ester sodium, sulfo-succinic acid isodecyl ester disodium, sulfo-succinic acid ethoxylated alcohol Carbenoxolone Sodium, sulfo-succinic acid alkylamidoalkyl polyethoxye ester disodium, N-(1,2-dicarboxyl ethyl)-N-(octadecyl) sulfosuccinamic acid four sodium, N-(octadecyl) sulfosuccinamic acid disodium, the sulfated ethoxylated nonylphenol, 2-amino-2-methyl-1-propanol etc.

The example of viscosity, suspension and flow control agent includes but not limited to the high molecular weight carboxylic salt of polyaminoamide phosphate, polyaminoamide and the alkylidene group amine salt of unsaturated fatty acids, all can be available from U.S. BYK Chemie company, commodity are called ANTI TERRA ^Further example comprises the Natvosol, hydroxypropylcellulose, polyamide wax, polyolefin-wax, carboxymethyl cellulose, ammonium polyacrylate, sodium polyacrylate, Vltra tears, Type 3U, polyethylene oxide, guar gum of polysiloxane copolymer, polyacrylate solution, cellulose ester, Natvosol, hydrophobically modified etc.Other example of thickening material comprises methylene radical/ethylidene oxide association thickening material and water-soluble carboxyl thickening material, for example the UCAR POLYPHOBE of Union Carbide Corporation ^

Several patent antifoams are commercial getting, and comprise the BUBREAK such as Buckman laboratory (company) ^, the BYK of U.S. BYK Chemie company ^, the FOAMASTER of Henkel Corp./coatings chemistry portion ^And NOPCO ^, the DREWPLUR of the Drew Department of Industry of AShland chemical company ^, the TRYSOL of Troy chemical company ^And TROYKYD ^And the SAG of Union Carbide Corporation ^

Mycocide, mould inhibitor, include but not limited to 4 with the example of biocide, 4-Er Jia Ji oxazolidine, 3,4,4-San Jia Ji oxazolidine, modified barium metaborate, N-methylol-N-methyl dithiocarbamic acid potassium, 2-(thiocyanogen methylthio group) benzothiazole, potassium dimethyldithiocarbamate, diamantane, N-(trichloro-methylthio) phthalic imidine, 2,4,5, the 6-daconil M, orthoxenol, 2,4, the 5-Trichlorophenol, dehydroacetic acid (DHA), copper naphthenate, cupric octoate, organoarsenic, tributyltin oxide, zinc naphthenate, with 8-quinolinic acid copper.

The example of uv-absorbing agent and UV light stabilizing agent among others, also includes substituted benzophenone, benzotriazole, the hindered amines of replacement and the benzoate that is obstructed is arranged, can be available from the trade(brand)name CYASORB UV of U.S. Cyanamid company ^With 3-ethanoyl-4-hydroxybenzyl diethyl phosphonate, 4-(12 carbon alkoxyl group)-2-hydroxyl diphenylketone and Resorcinol one benzoic ether.

The example of solvent and coalescing agent is known, and includes but not limited to ethanol, n-propyl alcohol, Virahol, propyl carbinol, sec-butyl alcohol, isopropylcarbinol, ethylene glycol-ether, propylene glycol n-butyl ether, propylene glycol-methyl ether, propylene glycol-propyl ether, two polypropylene glycols-methyl ether, glycol ether-butyl ether, neopentyl glycol-isobutyrate, ethylene glycol-octyl ether, Pyranton, TEXANOL ^Ester alcohol (Eastman chemical company) etc.Such solvent and coalescing aid also can comprise reactive solvents and coalescing aid, for example the SANTOLINK XI-100 of diisopropyl phthalate, Monsanto Company ^Poly epihydric alcohol base allyl ethers, and classify other material described in the United States Patent (USP) the 5th, 349, No. 026 and the 5th, 371, No. 148 of this paper reference as.

Be suitable for the pigment in the contemplated coating composition of the present invention, be well-known typical pigment dyestuff of personnel and the mineral dye that the general technical ability of topcoating technology is arranged, particularly ColourIndex (the 3rd edition the 2nd revision, nineteen eighty-two, dyer and colorist association and U.S. textile chemist and colorist association combined publication) in enumerate those.Example includes but not limited to following: titanium dioxide, barite, clay, or lime carbonate, No. 6, CI Pigment white (titanium dioxide); No. 101, CI Pigment red (red iron oxide); No. 42, CI Pigment Yellow 73; CI pigment Blue 15 number, 15: No. 1,15: No. 2,15: No. 3,15: No. 4 (CuPc); CI pigment red 49: No. 1; With CI Pigment red 57: No. 1.Tinting materials such as phthalocyanine blue, molybdate orange or carbon black also are applicable to coating composition of the present invention.

Provide following example the present invention is described.Yet, should be understood that, the invention is not restricted to specified conditions described in these examples or details.

The following material of not describing more than the example of the various coating compositions of the present invention uses:

ACRYSOL 1020 associative thickeners, Rohm and Haas company sells, philadelphia, pa;

ACTIV8 promotor, R.T.Vanderbilt company sells, Connecticut State Norwalk;

AQUACAT and MAGNACAT siccative, Ultra Additive company sells, the New Jersey Paterson;

The BYK-024 dispersion agent, BYK-Chemie company sells, joslyn hi-voltage;

COBALT HYDROCURE II catalyzer, ZIRCONIUM HYDROCEM siccative and DRI-RX-HF promotor, OMG company sells, joslyn hi-voltage;

The dibutyl phthalate softening agent, Eastman chemical company sells, Tennessee State this baud of gold;

EASTMAN EB and EASTMAN DB coalescing agent (solubility promoter), Eastman chemical company sells, Tennessee State this baud of gold;

FASCAT 4100 (a kind of esterifying catalyst), M ﹠amp; T chemical company sells, and prestige is drawn in the New Jersey;

HEXYL CARBITOL solubility promoter, Union Carbide Corporation, Connecticut State Danbury;

KELSOL 3960-B2G-75 water-dilutable alkyd, Reichhold chemical company, research triangle garden, the North Carolina state;

PAMOLYN 200 (a kind of tall oil fatty acid), Hercules company sells, Wilmington, the Delaware State;

PATCOTE 519 and 577 defoamers, American Ingredients company sells, Kansas City, the Missouri State;

RHOPLEX WL-51 latex, Rohm ﹠amp; Haas company sells, philadelphia, pa;

SURFYNOL 104,104PA and 465 tensio-active agents, Air Products andChemicals company sells, Pennsylvania's Allentown;

TAMOL 165 and TRITON CF-10 dispersion agent, Rohm ﹠amp; Haas company sells, philadelphia, pa;

TERGITOL 15-S-40 tensio-active agent, associating carbide chemical and Plastics Company, Connecticut State Danbury;

TIPURE R-706 pigment and R-746 slurry, Wilmington, the Delaware State is sold by chemical company of Du group.

With coating and the film of following method assessment according to the present invention's preparation.

Film gel section/swelling ratio

Films swell is by being determined in the acetone recently obtaining of the dry weight of soluble weight fraction in the soluble polymer weight mark of swollen (by weight) and dry film sample than (FSR).

Used program is as follows: for each sample determination, all have one 4 " * 4 " 325 order steel sieves and metal boat of weighing to be placed on kiln roasting, cool off 30 minutes, weigh (being respectively W1 and W2).The latex film drying, after room temperature keeps required fate, cut one piece of film, weigh (W3), be placed in the aluminium dish, set aside.Cut another piece film sample, weigh (W4), put in the screw-cap wide-necked bottle that excessive solvent arranged, on the constant temperature wobbler is bathed, placed 16 hours.By this solution humidification solid is toppled over via screen cloth and with screen cloth add the contained wet solid that stays weigh (W5) reclaim the film gel.At this moment, allow screen cloth add solid and film sample is placed in the aluminium boat, in 80 ℃ vacuum drying oven, be dried to constant weight, obtain the weight (W7) that screen cloth adds film sample in dried solid weight (W6) and the aluminium boat.Calculating shows below:

FGF＝(W6-W1)/[W4*((W7-W2)/W3)]

FSR＝(W5-W1)/(W6-W1)

Lacquer viscosity

After 24 hours, with Krebs-Stormer viscometer determining lacquer viscosity (using the Krebs unit representation).

Anti-methyl ethyl ketone performance

Anti-methyl ethyl ketone (MEK) performance is with the two frictions of MEK (each once is a group backward forward) report.MEK friction number be by on the round end of 16 ounces of spherical column cap hammers fixedly the multilayer cheese cloth measure.Then, hammer is attached on the mechanism, this hammer is moved forward backward.Make this cheese cloth saturated with MEK, with wetted cloth friction test piece, when breaking through to base material for the first time till.

Pendulum-rocker hardness

Pendulum-rocker hardness is measured with a Gardner pendulum-rocker hardness tester.

Tukon hardness

Tukon hardness is measured according to ASTM D 1474-92.

Surfaces of tacky

Surfaces of tacky is by allowing firm finger pressure effect determine for 10 seconds.It is as follows to grade:

0-can not break away from

The 3-toughness

4-is clamminess slightly

5-is not clamminess

Example 1 water can disperse the preparation and the dispersion liquid thereof of sulfonated alkyd resin

Step 1: the adducts of neopentyl glycol (NPG) and 5-sodiosulfoisophthalic acid (SIP), at first be by in three mouthfuls of round-bottomed flasks of an outfit mechanical stirrer, steam jacket fractional distillating tube, dean stark trap, nitrogen inlet and water condenser, make NPG (2483.5g, 23.88mol), SIP (93.3%) (1608.5g, 5.6mol), distilled water (276.0g) and catalyzer FASCAT 4100 (3.3g) reaction prepares.Make temperature of reaction bring up to 190 ℃ gradually from 130 ℃ in 5 hours time, phlegma (water) is collected in the dean stark trap.Allowing reaction proceed, is 3 until reaching acid number.The part of resultant product is used for next step.

Step 2: in the three mouthfuls of round-bottomed flasks (3L) that have been equipped with configuration same as described above, add NPG/SIP adducts (497.0g), Tetra hydro Phthalic anhydride (PA) (357.4g, 2.42mol), tetramethylolmethane (PE) (233.8g, 1.72mol), PAMOLYN 200 (tall oil fatty acid) (985.9g, 3.40mol) and FASCAT 4100 (1.54g).The afterreaction temperature rose to 230 ℃ gradually in 1 hour.Allowing reaction proceed about 3 hours again, is 8 until reaching acid number.Allow resulting resin cool off, to separate subsequently.

The aqueous dispersions preparation: the tackifying resin that step 2 obtains is heated to 80 ℃ in baking oven, adds (100g) subsequently in the flask of equipment water condenser.Resin is heated to 120 ℃, stirs under nitrogen atmosphere.Allow resulting resin melt be cooled to 80 ℃, drip distilled water (100g).During dispersion process, make temperature further be reduced to 50 ℃, obtain even resin solution this moment.Allow stir and proceed, further add water (22g), provide a kind of 45% solid resin aqueous solution that has.

Example 2～9: the latex preparation of being undertaken by the letex polymerization of alkyd/heterogeneous LOF vinylformic acid hybrid resin

For in the example 2～9 each, all purge and the alkyd dispersions (table 1) that adds water and example 1 in the 1000mL resin kettle of feed-pipe is gone up on the surface to an outfit condenser, nitrogen.The beginning nitrogen purging makes the content of this reactor rise to 80 ℃ then, and it is reinforced to add the initiator of being made up of the 0.15g ammonium persulphate that is dissolved in the 5.0g water in this reactor.Begin then to add vinylformic acid fs monomer or core composition charging with about 70 minutes clock times.Simultaneously, beginning with charging in 0.22g/ minute by being dissolved in the initiator raw material that 0.51g ammonium persulphate in the 33.0g water and 0.66g volatile salt are formed.After the fs monomer feed is finished, be reflected at 80 ℃ and kept 30 minutes, and continue to add initiator solution.After this maintenance phase, begin with about 50 minutes clock time charging vinylformic acid subordinate phase monomers or shell composition material.After all these chargings are finished, continue 80 ℃ of heating 60～90 minutes.This emulsion is cooled off, is filtered, collects and can cross filter solid or fragment by 100 order metallic sieves then.Measure granularity, viscosity and the pH of resultant alkyd/heterogeneous vinylformic acid hybrid resin latex, and comprehensively in table 1.

Example 10: latex preparation-contrast of being undertaken by the letex polymerization of alkyd/homogeneous propylene acid hybrid resin

In a 1000mL resin kettle that has been equipped with condenser, nitrogen purging and surperficial feed-pipe down, add the 204.4g alkyd dispersions that 122.1g water and example 1 obtain.The beginning nitrogen purging makes the content of this reactor rise to 80 ℃ with 300rpm then.Secondly, in this reactor, add the initiator feed of forming by the 0.15g ammonium persulphate that is dissolved in the 5.0g water.Then, begin the raw material monomer formed by 38.5g 2-EHA, 61.3g vinylbenzene and 30.7g methyl methacrylate with clock time charging in about 135 minutes.Simultaneously, beginning with charging in 0.22g/ minute by being dissolved in the initiator raw material that 0.51g ammonium persulphate in the 33.0g water and 0.66g volatile salt are formed.After these chargings are all finished, continue 80 ℃ of heating 60～90 minutes.Then, make emulsion cool off, filter by 100 order metallic sieves.Measure granularity, viscosity and the pH of resultant mixing latex, and comprehensively in table 1.

Example 11: the transparent film Study on curing of carrying out as crosslinking catalyst with cobalt/zirconium driers bag

For each latex of example 2～10, all in 30g latex, add 4.3g water (making solid be reduced to 35%), 0.24g cobalt HYDROCURE II and 0.50g zirconium Hydrochem.Each sample stirs and spends the night, is cast to then on the separate paper (15 mils are wet thick) and air-dry in room temperature.

Film gel section (FGF) is to obtain by the soluble weight fraction of measuring polymkeric substance in the dry film sample.Mean value is measured to determine from three times, comprehensively in table 2.

Non-sense contrast (example 10) and those mixing latex (example 2～8) that contains the allyl functional degree or contain vinyl functionality in shell have obviously all reached 75～80% film gel section platform in the time of 21 days.Believe this apparent independence that final gel section forms vinylformic acid in fact with the composition of this alkyd, especially with this alkyd in tall oil fatty acid (TOFA) low-level relatively relevant.When the TOFA level was low, the reactive group mean number of each pure acid molecule may be so low, so that exist non-reacted basically thereby pure acid molecule that do not become crosslinked matrix integral part on statistics.Yet allyl group of the present invention/vinyl functional latex just provides the remarkable improvement of film gel section in shorter set time (for example 7 days).In fact, average 7 days film gel section of allyl group/vinyl functional mixture are that 76.2+2.1%-is much higher than non-sense example 10 observed 62.4%.

The films swell ratio points out, although some part of this mixing latex (perhaps alkyd as previously discussed) does not enter in the crosslinked film, those take place crosslinked part can continue as time passes crosslinked-cause films swell than constantly reducing.And then, the films swell of allyl group/vinyl functional latex testing all significantly is lower than those that non-sense control group is measured than at 7 days and 21 days.This acrylate moiety that is further illustrated in alkyd/vinylformic acid hybrid resin has the importance of functionality.

The comparison of example 1,3 and 4 films swell ratio has confirmed that pure acid content is to the influence of the oxidative crosslinking speed of hybrid resin film in alkyd/vinylformic acid hybrid resin.Though the film gel section of these three kinds of hybrid resins is quite similar, final films swell than and perhaps the more important thing is from 7 days to 21 days films swell and show that than percentage change the alkyd level is low more, produce dense more and/or quick more crosslinked film.This confirms that further the integral part of the vinylformic acid of potential oxidisability official's energy (LOF) as alkyd/vinylformic acid hybrid resin arranged, and can significantly improve the rate of crosslinking/degree of this hybrid resin film.

Example 9 strictly speaking, is not a kind of alkyd/vinylformic acid hybrid resin of allyl group/vinyl functional.Reactive monomer in this latex is a methacrylic acid acetoacetyl 2-ethoxyethyl acetate (AAEM), and this is opposite with allyl methacrylate(AMA) (ALMA) or methacrylic vinyl acetate (VMA).As everyone knows, in the amine of this latex and during pH (pH＜8.0), acetoacetyl oxygen functionality has the reactive enamine group of oxidation with generation, and the latter can be as ALMA or VMA can take place and the oxidation functionality reaction of this alkyd dispersions.In fact, film gel section and swelling ratio are measured and are pointed out, the enamine functionality that interrelates with AAEM, with ALMA still and VMA chemofacies ratio, much all rapid take place crosslinked.It is also advantageous in that the survival of AAEM functionality in polymerization process formed especially levels of styrene sensitivity to polymkeric substance hardly as ALMA and VMA.

Table 1

Example alkyd core is formed (weight %) shell and is formed (weight %) core/capsomere degree viscosity fragment weight % MMA/S/EHA/TMPTA S/EHA/ALMA/VMA/AAEM 1Than (gm) pH 2 35 0.0/70.0/29.5/0.5 55.8/23.6/14.3/0/0 1.70 195 48 0.08 8.2 3 35 35.0/35.0/29.5/0.5 55.8/23.6/14.3/0/0 1.70 298 628 0.06 8.1 4 35 70.0/0.0/29.5/0.5 55.8/23.6/14.3/0/0 1.70 246 90 0.22 8.1 5 20 35.0/35.0/29.5/0.5 55.8/23.6/14.3/0/0 1.70 296 17 2.04 8.3 6 50 35.0/35.0/29.5/0.6 55.8/23.6/14.3/0/0 1.70 152 204 0.09 8.0 7 35 35.0/35.0/29.5/0.7 55.8/23.6/0/14.3/0 1.70 341 6,410 0.00 8.2 8 35 35.0/35.0/29.5/0.8 55.8/23.6/7.2/7.1/0 1.70 338 5,110 0.00 8.2 9 35 35.0/35.0/29.5/0.9 55.8/23.6/0/0/14.3 1.70 371-0.00 8.1 10 35 47.0/23.5/29.5 of (nm) (centipoise)*??????????????-???????????????-??????146????625????0.06???8.0 *Total composition (g) corresponding to core-shell latex among the monomeric example 2-9 of no LOF 1All shells compositions all contain 6.3% (weight) methacrylic acid N, and all latex of N-dimethylamino ethyl ester all prepare the MMA-methyl methacrylate with 40.0% solid; S-vinylbenzene; The EHA-EHA; TMPTA-three propylene three (methylol) propane esters; The ALMA-allyl methacrylate(AMA); VMA-methacrylic vinyl acetate; AAEM-methacrylic acid acetoacetyl 2-ethoxyethyl acetate

Table 2
	7 days 21 days % example FGF of 7 days 21 days % FGF FGF FSR FSR FSR increases and reduces 2 0.762 0.800 5.0 3.494 2.026 42.0 3 0.754 0.761 0.9 3.198 2.523 21.1 4 0.766 0.765-0.1,3.904 3.229 17.3 5 0.785 0.817 4.1 4.322 2.608 39.7 6 0.719 0.731 1.7 3.454 3.397 1.7 7 0.781----3.512----8,0.766 0.782 2.1 3.662 3.321 9.3 9 0.898----2.623----10 0.624 0.769 23.2 5.383 4.156 22.8

FGF-film gel section; FSR-films swell ratio

Example 12: water can disperse the preparation of sulfonated alkyd resin

According to the program described in the example 1, prepare other two kinds of water and can disperse the sulfonated alkyd resin, make it to contain respectively 0.63 times and 1.29 times of used tall oil fatty acid in the example 1 (PAMOLYN 200) quantity.During example 1 and these two kinds of materials are appointed as respectively, short, long oil alkyd.The alkyd dispersion process of these three kinds of samples changes slightly, adds water interpolation 12% hexyl Trivalin SF (is benchmark with alkyd weight) in this alkyd before to be included in.

Example 13-23: the latex preparation that contains alkyd/vinylformic acid hybrid resin

Synolac dispersion liquid with preparation in the example 12 prepares a series of latex that contain alkyd, vinylformic acid hybrid resin, makes it to have dissimilar LOF groups, dissimilar and the Synolac of level and different vinylformic acid Tg.The general preparation procedure of these materials is as follows: in a 500mL reactor, add an amount of softening water and Synolac dispersion liquid.These reactor content are heated to 80 ℃, and add the initiator of being made up of the 0.22g ammonium persulphate in the 5.0g water this moment in this reactor reinforced.Then, with 3 hour time be the monomer mixture of each sample description in the charging following table 3 in this reactor, simultaneously a kind of 0.22g ammonium persulphate of charging and the solution of 0.31g volatile salt in 30g water.After these compositions all add in this reactor, make 40% solid latex in about 1 hour of 80 ℃ of maintenances, cool to room temperature, filtration.

Table 3 example weight % alcohol acid acrylic acid vinylbenzene 2EHA LOF weight % alkyd 1The oil length T g 2℃ % by weight % by weight acrylic monomers 13 35 short 10 46 44 ALMA, 10 14 40 short 30 58 32 VMA, 10 15 45 short 50 70 20 AAEM, 10 16 50 short 70 85 15 nothings--70 78 12 ALMA, 10 19 35 long 50 75 25 nothings among 30 59 31 AAEM 10 18 45 in 17 35--10 53 47 nothings among 20 40 long 70 79 11 AAEM, 10 21 45 long 10 46 44 VMA 10 22 40--, 23 50 long 30 58 32 ALMA 10

¹Weight % is a benchmark with the polymer solids total amount

²From Fox-Flory Equation for Calculating T _g

³The ALMA=propyl methacrylate; VMA=methacrylic vinyl acetate; AAEM=methacrylic acid acetoacetyl 2-ethoxyethyl acetate.

Example 24: coating composition preparation

The latex of example 13～23 is formulated as follows: 43.8g latex, 2.7g water and 3.5g catalyst mixture.This catalyst mixture comprises 63.2 parts of EASTMAN EB, 17.7 parts of cobalt HYDROCURE II, 6.4 parts of SURFYNOL 465 and 12.7g SURFYNOL104PA.Allow these sample standing over night, be applied on glass with 6 mil wet thicknesses it this moment.The film that obtains solidified 14 days down in usual conditions (50%RH and 70).Then, can for utilize the sample total amount half 150 ℃ of bakings 30 minutes, to influence final curing.Normal temperature and hot setting film all carry out solvent resistance (the two frictions of methyl ethyl ketone or MEK), pendulum-rocker hardness and surfaces of tacky assessment.These the results are shown in table 4.

Table 4

Example	Vinylformic acid Tg	The LOF Acrylic Acid Monomer	Weight %/type alkyd 1	The MEK friction		Pendulum-rocker hardness 2		Surfaces of tacky 3
										Normal temperature	Baking	Normal temperature	Baking	Normal temperature	Baking
				???13	????10	???ALMA	???35/S	???52	???71							????8	???19	????4.0	????4.8
???14	????30	????VMA	???40/S							???85	???313	???25	???80	????4.9	????5.0
				???15	????50	???AAEM	???45/S	??107	???307							???26	??111	????5.0	????5.0
???16	????70	Do not have	???50/S							???20	???50	???35	???89	????4.9	????5.0
				???17	????30	???AAEM	???35/M	???30	??1000							???37	???82	????5.0	????5.0
???18	????70	???ALMA	???45/M							???62	?＞1000	???43	???138	????5.0	????5.0
				???19	????50	Do not have	???35/L	???15	???7							???36	???87	????4.9	????5.0
???20	????70	???AAEM	???40/L							???49	???110	???62	???t07	????4.9	????5.0
				???21	????10	???VMA	???45/L	???40	???27							????2	???16	????3.5	????4.8
???22	????10	Do not have	???40/M							???47	???13	????2	???26	????3.0	????4.8
				???23	????30	???ALMA	???50/L	???74	???257							????7	???40	????4.0	????4.9

¹S-short oil alkyd; Oleyl alcohol acid among the M-; L-long oil alkyd;

²Only measure with the test of Gardner pendulum-rocker hardness

³Determine for 10 seconds by firm finger pressure; Grade is that 0-can not break away from; The 3-toughness; 4-is clamminess slightly; 5-is not clamminess.

Example 25: the bond strength of example 13～23

The prescription sample of example 13～23 is applied on a kind of polypropylene film (Mobil 100 LBW) of orientation with the #3RD rod.The identical film of another piece is put on this coating immediately, presses for 3 seconds with a Sentinel heat sealing machine (do not have heat, the 40psi jaw is pressed), and two pieces of films are forced together.Bond strength between the film was measured with an Instron tension tester after 18 hours.The results are shown in Table 5.

Table 5

Example	Bond strength gram/inch
		????13	Film tears preceding 300
????14	Film tears preceding 230
		????15	Film is torn
????16	???????10
		????17	???????10
????18	????????0
		????19	????????0
????20	????????0
		????21	???????70
????22	??????140
		????23	???????70

Example 26: example 16-17,19-20 and 23 bond strength

Extrude the lamination strength test to demonstrating the prescription sample (table 5) that hangs down the example 13～23 of bond strength relatively.Polypropylene film is coated with described in example 25, allows coating curing 24 hours.Then, be coated with poly metallized film and be placed on this polypropylene film, made polyethylene towards the test coating a kind of.Use a Senlinel heat sealing machine (300, the 40psi jaw is pressed) to press for 3 seconds then, two pieces of films are forced together.Measure bond strength between these films with an Instron tension tester then.The results are shown in Table 6.

Table 6

Example	Bond strength gram/inch
		????16	??????50
????17	??????50
		????19	??????30
????20	??????80
		????23	?????250

Example 27: latex composition

Comprehensive latex composition in table 7 is with the middle oleyl alcohol acid of example 12 and abides by the general letex polymerization program preparation of example 13～23.

Table 7

Sample	Weight % alkyd 1	Alkyd oil length	Vinylformic acid T g 2℃	Vinylformic acid is formed
								Vinylbenzene weight %	ZEHA weight %	ALMA weight %	MAA weight %
				????A	???23	In	???75					???73	???12	???10	????5
????B	???23	In	???37					???55	???30	???10	????5
				????C	???23	In	???35					???57	???30	???10	????3
????D	???23	In	???51					???65	???22	???10	????3
				????E	???23	In	???81					???79	???8	???10	????3

¹Weight % is a benchmark with the polymer solids total amount ²From Fox-Flory Equation for Calculating Tg ³The 2EHA=2-EHA; The ALMA=allyl methacrylate(AMA); The MAA=methacrylic acid

Example 28: coating property

The latex of example 27 is formulated as follows: 26.4g latex, 0.9g water, 0.6g 80/20 isopropanol and 2.1g catalyst mixture.This catalyst mixture comprises 63.2 parts of EASTMANEB, 17.7 parts of cobalt HYDROCURE II, 6.4 parts of SURFYNOL 465 and 12.7gSURFYNOL 104 PA.Allow the sample standing over night, be applied to it on glass with 6 mil wet thicknesses this moment.The film that obtains solidified 14 days down in usual conditions (50%RH and 70).These ambient cure films are carried out solvent resistance (the two frictions of methyl ethyl ketone or MEK) and hardness (fork and Tukon) assessment.The results are shown in Table 8.

Table 8

Example	The MEK friction	Film thickness (mil)	Hardness
					Fork	Tukon
			????27A	????1519			????1.66	????75	????8.5
????27B	????3302	????1.87			????37	????2.
			????27C	????3305			????2.03	????43	????3?4
????27D	????1837	????5.02			????39	????3.9
			????27E	????209			????1.51	????76	????8.6

Comparative example 1: based on the paint formula of acrylic modified waterborne alkyd dispersions and commodity water-borne acrylic resin and Synolac

The every kind of paint formula A～D that describes in table 9～12 prepares by these compositions are mixed by listed order vigorous stirring in the correspondence table respectively.Then, adding enough water in every kind of prescription, is 25～40 seconds when this dispensing viscosity being reduced to examine grace cup mensuration with No. 2.With the film casting, providing dried film thickness is 1.3～1.5 mils.These film hardenings are in fixed temperature and humidity (73.5 ± 3.5,50+5% relative humidity) test down.

Table 9 lacquer A prescription

Grind:	Gram
		????Kelsol?3960-B2G-75	????183.3
Premix:
		??????????Activ-8	????0.92
Cobalt HYDROCURE II	????5.68
		Add then:
???????Eastman?EB	????9.17
		??????Ti-Pure?R?706	????188.80
Paint:
		????Keisol?3960-B2G-75	????69.65
Propyl carbinol	????13.44
		Sec-butyl alcohol	????12.83
Ammonia	????13.44
		?????????Eastman?EB	????3.67
Water	????474.14
		Add up to:	????975.04

Table 10 lacquer B prescription

Grind:	Gram
		???Rhoplex?WL-51	????63.4
?????Tamol?165	????8.2
		????Triton?CF-10	????0.9
?????Patcote?519	????0.5
		????Ti-Pure?R?706	????121.8
Water	????6.4
		Add up to:	????201.2
Paint:
		????Rhoplex?WL-51	????375.9
Water	????225.8
		?????Eastman?EB	????91.1
?????Eastman?DB	????18.3
		Dibutyl phthalate	????14.6
????Patcote?519	????0.5
		Add up to:	????927.4

Table 11 lacquer C prescription

Grind:	Gram
		????Keisol?3960-B2G-75	????121.0
????????Eastman?EB	????8.4
		?????????Aquacat	????1.9
????????Magnacat	????3.9
		??????Patcote?519	????0.9
??????Patcote?577	????0.9
		??????Ti-Pure?R?706	????203.7
Add up to	????340.7
		Paint:
Premix
		????Keisol?3960-B2G-75	????87.1
28% ammonia	????5.8
		Water	????269.8
Add
		???????Rhoplex?WL?51	????251.3
????????Eastman?DB	????16.1
		14% ammonia	??????0
Add up to	????970.8

Table 12: lacquer D prescription

Grind:	Gram	The interpolation order
			TiPure R 746 slurries	??????130.40
Add up to	??????130.40	????????7
			Paint:
The latex of example 18	??????378.80	????????1
			Cobalt HYDROCURE II	??????6.00	????????2
????????Dri-RX-HF	??????0.80	????????3
			Eastman EB/ water 50/50	??????50.00	????????4
???????Surfynol?104	??????1.50	????????5
			?????????BYK-024	??????0.22	????????6
10% ammonium benzoate	??????15.00	????????7
			?????Acrysol?RM-1020	??????6.00	????????8
Ammonia 14%	????pH?7.9-8.4	???????10
			Add up to	??????588.72

Comparative example 2: coating property

Paint formula A～D with comparative example 1 is a based coating, carries out the assessment of performances such as time of drying, printability resistance energy, pencil hardness, cross-hatching sticking power, immersion and specular gloss.These are assessed respectively according to ASTM D 1640-83, ASTM D 2091-88, and ASTM D3363-92A, ASTM D 3369-92A, ASTM D 870-92 and ASTM D 523-89 carry out.The result is comprehensively in table 13～16.

Table 13: printability resistance energy (ASTM D2091-88)

Paint formula	DFT (mil)	Set time (my god)
						????1	????3	??????7	????14
		????A	???1.5	????0	????2					??????2	????2-4
????B	???1.3					????6-8	????10	?????10	????10
		????C	???1.3	????6	????8					????8-10	???8-10
????D	???1.4					????8-10	????10	?????10	????10

Table 14: pencil hardness (ASTM D 3363-92A)

Paint formula	DFT (mil)	Set time (my god)
						????1	????3	????7	????14
		????A	????1.5	??＜5B	???4B					???4B	????B
????B	????1.3					????B	???HB	???HB	????F
		????C	????1.3	???2B	????B					????B	????F
????D	????1.4					???2B	????B	????B	???HB

Table 15: by in 60 ℃ of water, soaking the hot water resistance energy after exposing in 2 hours

Paint formula	Initial hardness	Recovered in 15 minutes	Recovered in 3 hours	Expose the back outward appearance
					????A	????2B	???＜5B	????3B	Change very little
????B	????HB	????3B	????HB	Very muddy
					????C	????HB	????4B	????HB	Very muddy
????D	????B	????3B	????HB	Constant

Table 16: time of drying, cross-hatching sticking power and gloss.Cross-hatching sticking power and gloss are measured after normal temperature condition solidified in 14 days.

Paint formula	DFT (mil)	Time of drying (minute)	Fully solidify (minute)	Cross-hatching sticking power	60 degree gloss	20 degree gloss
							????A	????1.5	??＞360	No data	????4B	???83.5	????59.4
????B	????1.3	????15	????115	????5B	???64.7	????42.8
							????C	????1.3	????12	????110	????5B	???68.3	????22.9
????D	????1.4	????15	????75	????5B	???93.2	????64.9

Claims (21)

1. acrylic acid modified alkyd resin comprises the polymerisate of at least a ethylene linkage unsaturated monomer in the presence of a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality arranged.

2. the acrylic acid modified alkyd resin of claim 1, wherein, described ethylene linkage unsaturated monomer is a kind of latent oxidatively-functional Acrylic Acid Monomer, and resultant acrylic modified alkyd has abundant for the potential oxidisability functional group that utilizes, thereby can increase the effectively crosslinked of described alkyd on being applied to base material the time.

3. the acrylic acid modified alkyd resin of claim 2, wherein, potential oxidisability functional group is selected from one group that is made up of allyl group, vinyl, acetoacetyl and enamine.

4. the acrylic acid modified alkyd resin of claim 2, wherein, described latent oxidatively-functional Acrylic Acid Monomer is selected from one group that is made up of following: allyl methacrylate(AMA), methacrylic vinyl acetate, methacrylic acid acetoacetyl 2-ethoxyethyl acetate, methacrylic acid hydroxyl butene esters, toxilic acid-allyl ester, diallyl maleate and poly-(allyl glycidyl ether).

5. the acrylic acid modified alkyd resin of claim 1, wherein, described ethylene linkage unsaturated monomer is the mixture of at least a ethylene linkage unsaturated monomer and at least a latent oxidatively-functional Acrylic Acid Monomer.

6. the acrylic acid modified alkyd resin of claim 5, wherein, described ethylene linkage unsaturated monomer is selected from by vinylbenzene, alpha-methyl styrene, vinyl naphthalene, Vinyl toluene, 1-chloro-4-methyl-benzene, methyl acrylate, vinylformic acid, methacrylic acid, methyl methacrylate, ethyl propenoate, Jia Jibingxisuanyizhi, butyl acrylate, butyl methacrylate, isobutyl acrylate, Propenoic acid, 2-methyl, isobutyl ester, EHA, ethylhexyl methacrylate, Octyl acrylate, Octyl methacrylate, glycidyl methacrylate, methacrylic acid carbodiimide ester, Ba Dousuan alkane ester, vinyl-acetic ester, n-butyl maleate, dioctyl maleate, t-butylaminoethyl methacrylate, dimethylaminoethyl methacrylate, diethyl aminoethyl methacrylate, N, N-dimethylaminopropyl Methacrylamide, methacrylic acid 2-tertiary butyl amino ethyl ester, vinylformic acid N, the N-dimethylamino ethyl ester, N-(2-methacryloxyethyl) ethylidene-urea, form with methacryloyl amido ethyl ethylidene-urea one group.

7. the acrylic acid modified alkyd resin of claim 6, wherein, described ethylene linkage unsaturated monomer is selected from one group that is made up of vinylbenzene, alpha-methyl styrene, vinyl naphthalene, Vinyl toluene and 1-chloro-4-methyl-benzene.

8. a water-based latex comprises water and a kind of acrylic acid modified alkyd resin, and the latter comprises the polymerisate of at least a ethylene linkage unsaturated monomer in the presence of a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality arranged.

9. the water-based latex of claim 8, wherein, described ethylene linkage unsaturated monomer is a kind of latent oxidatively-functional Acrylic Acid Monomer, and resultant acrylic modified alkyd has abundant for the potential oxidisability functional group that utilizes, thereby can increase the effectively crosslinked of described alkyd on being applied to base material the time.

10. the water-based latex of claim 8, wherein this acrylic modified alkyd comprises with this latex total solids and is about 5～60% (weight) aqueous alkide resins of benchmark and is about 40～95% (weight) ethylene linkage unsaturated monomer of benchmark with this latex total solids.

11. the water-based latex of claim 8 further comprises a kind of cosurfactant, and wherein this aqueous alkide resin accounts for about 5～35% (weight) of this latex total solids.

12. the water-based latex of claim 9, wherein, potential oxidisability functional group is selected from one group that is made up of allyl group, vinyl, acetoacetyl and enamine.

13. the water-based latex of claim 9, wherein, described latent oxidatively-functional Acrylic Acid Monomer is selected from one group that is made up of following: allyl methacrylate(AMA), methacrylic vinyl acetate, methacrylic acid acetoacetyl 2-ethoxyethyl acetate, methacrylic acid hydroxyl butene esters, toxilic acid-allyl ester, diallyl maleate and poly-(allyl glycidyl ether).

14. the water-based latex of claim 8, wherein, described ethylene linkage unsaturated monomer is the mixture of at least a ethylene linkage unsaturated monomer and at least a latent oxidatively-functional Acrylic Acid Monomer.

15。The water-based latex of claim 14, wherein, described ethylene linkage unsaturated monomer is selected from by vinylbenzene, alpha-methyl styrene, vinyl naphthalene, Vinyl toluene, 1-chloro-4-methyl-benzene, methyl acrylate, vinylformic acid, methacrylic acid, methyl methacrylate, ethyl propenoate, Jia Jibingxisuanyizhi, butyl acrylate, butyl methacrylate, isobutyl acrylate, Propenoic acid, 2-methyl, isobutyl ester, EHA, ethylhexyl methacrylate, Octyl acrylate, Octyl methacrylate, glycidyl methacrylate, methacrylic acid carbodiimide ester, Ba Dousuan alkane ester, vinyl-acetic ester, n-butyl maleate, dioctyl maleate, t-butylaminoethyl methacrylate, dimethylaminoethyl methacrylate, diethyl aminoethyl methacrylate, N, N-dimethylaminopropyl Methacrylamide, methacrylic acid 2-tertiary butyl amino ethyl ester, vinylformic acid N, the N-dimethylamino ethyl ester, N-(2-methacryloxyethyl) ethylidene-urea, form with methacryloyl amido ethyl ethylidene-urea one group.

16. a coating composition comprises the water-based latex and at least a one group the additive that is selected from following composition of claim 8: rheological agent and flow control agent; Extender; Reactive coalescing aid; Softening agent; Matting agent; Pigment wetting and dispersion agent and tensio-active agent; Ultraviolet

(UV) absorption agent; UV light stabilizing agent; Tinting pigment; Tinting material; Defoamer and antifoams; Anti-settling, antitrickle and thickening material; Anti; Anti-floating and anti-floating agent; Biocide, mycocide and mould inhibitor; Inhibiter; Thickening material, and coalescing agent.

17. a method for preparing water-based latex comprises and makes at least a ethylene linkage unsaturated monomer step of polymerization in the presence of a kind of water alcohol acid that at least one pendant sulfonic acid salt functionality arranged.

18. the method for claim 17, further comprise and make the functional Acrylic Acid Monomer of at least a oxidisability in the presence of a kind of water alcohol acid aqueous dispersions that at least one pendant sulfonic acid salt functionality arranged, step of polymerization under the condition of the potential oxidisability functionality survival that is enough to make Acrylic Acid Monomer.

19. the method for claim 18, wherein, potential oxidisability functional group is selected from one group that is made up of allyl group, vinyl, acetoacetyl and enamine.

20. the method for claim 18, wherein, described latent oxidatively-functional Acrylic Acid Monomer is selected from one group that is made up of following: allyl methacrylate(AMA), methacrylic vinyl acetate, methacrylic acid acetoacetyl 2-ethoxyethyl acetate, methacrylic acid hydroxyl butene esters, toxilic acid-allyl ester, diallyl maleate and poly-(allyl glycidyl ether).

21. the method for claim 17, wherein, this polymerization is a kind of letex polymerization.